Class / Patent application number | Description | Number of patent applications / Date published |
156165000 | Stressing spherical or tubular body | 7 |
20100319839 | SYSTEMS AND METHODS FOR INSULATING A PIPE - A pipe insulation product including a core of insulating material and a laminate. The core includes a cylindrical outer surface; a cylindrical inner surface; and a wall extending between the cylindrical outer surface and the cylindrical inner surface. The laminate includes a metallized polymeric film sheet layer forming an inner layer, a scrim, a porous media sheet layer, and a polymeric film sheet layer forming an outer exposed layer bonded together via an adhesive. The laminate is coextensive with and bonded to the cylindrical outer surface of the core and the laminate and core are flexible so that the core and laminate can be opened, placed about a pipe, and closed without degrading the laminate. | 12-23-2010 |
20110232833 | METHOD OF SECURING A LINER PANEL TO A CASING - A liner panel, such as a cassette | 09-29-2011 |
20120118486 | METHODS AND SYSTEMS FOR FORMING INTEGRAL COMPOSITE PARTS WITH A SMP APPARATUS - A method and apparatus for fabricating a composite part, such as a fuselage or internal stiffener, with a shape memory polymer (SMP) apparatus usable as a rigid lay-up tool. The SMP apparatus may be heated until malleable, shaped, and then cooled in a desired rigid tool configuration. For example, cavities may be formed into the SMP apparatus for nesting components therein to co-bond or co-cure with the composite part. The composite material and/or nested components may be heated and compressed against the SMP apparatus. The SMP apparatus may be configured to remain rigid during the composite cure cycle. Once the composite material is cured, the SMP apparatus may be triggered to a malleable state and urged away from the cured composite material. | 05-17-2012 |
20120118487 | METHODS AND SYSTEMS FOR CO-BONDING OR CO-CURING COMPOSITE PARTS USING A RIGID/MALLEABLE SMP APPARATUS - A method and apparatus for fabricating a composite part, such as a fuselage or internal stiffener, with a shape memory polymer (SMP) apparatus usable as both a rigid lay-up tool and a bladder. The SMP apparatus may be heated until malleable, shaped, and then cooled in a desired rigid tool configuration. For example, cavities may be formed into the SMP apparatus for nesting components therein to co-bond or co-cure with the composite part. Next, composite material may be applied onto the SMP apparatus and then placed into a rigid external tool and heated to composite cure temperatures at which the SMP apparatus is malleable. A pressure differential may be induced which urges the SMP apparatus to compress the composite material against the rigid external tool. When the composite material is cured, the SMP apparatus may be urged away from the cured composite material and removed from within the composite part. | 05-17-2012 |
20120180938 | DEVICE AND METHOD FOR APPLYING ELASTIC FILM SLEEVES TO CONTAINERS - A device and method for applying elastic film sleeves to containers, where a plurality of stretching units for stretching the film sleeves and a plurality of removal units for removing the containers that have been provided with the film sleeves are mounted on a labeling carousel. Furthermore, a label dispenser is provided for equipping the stretching units with the film sleeves. Due to the fact that the removal units include gripping units that can be moved back and forth with respect to the labeling carousel between a gripping position for gripping the containers and an avoidance position for avoiding a collision with the label dispenser, the size and shape of the gripping units can be varied flexibly. Also, an evasion movement of the stretching units in the area of the label dispenser is dispensable. | 07-19-2012 |
20130160932 | BALLOON CATHETER TAPERED SHAFT HAVING HIGH STRENGTH AND FLEXIBILITY AND METHOD OF MAKING SAME - Method of making a balloon catheter includes melt-extruding a thermoplastic polymeric material into a tube, cooling the extruded tube, placing the extruded tube within a capture member and biaxially orienting the polymeric material of the extruded tube while simultaneously tapering at least a section of the extruded tube by radially expanding the extruded tube with pressurized media in the tube lumen and axially expanding the extruded tube with an external load applied on at least one end of the tube as an external heat supply traverses longitudinally from a first end to a second end of the extruded tube in the capture member, wherein an overall axial load on the tubing is varied as at least a section of the tube is heated. The method includes cooling the expanded tube to form a tapered biaxially oriented nonporous thermoplastic polymer tubular member and sealingly securing a balloon proximate a distal end of the tubular member. | 06-27-2013 |
20140116603 | FIXING MEMBER MANUFACTURING METHOD AND FIXING MEMBER MANUFACTURING APPARATUS - A fixing member manufacturing method includes: a step of holding a longitudinal end of a resin tube by a first holding tool; a step of holding another longitudinal end of the resin tube by a second holding tool; a step of decreasing a distance between the first and second holding tools each holding the resin tube, by a predetermined amount; a step of expanding, after the decreasing step, the resin tube in a radial direction; and a step of externally fitting the resin tube, expanded in the radial direction, around an elastic material coated with an adhesive. | 05-01-2014 |